Passive monitoring of ground motion can be used for geophysical process analysis and natural hazard assessment. Detecting events in microseismic signals can provide responsive insights into active geophysical processes. However, in the raw signals, microseismic events are superimposed by external influences, for example, anthropogenic or natural noise sources that distort analysis results. In order to be able to perform event-based geophysical analysis with such microseismic data records, it is imperative that negative influence factors can be systematically and efficiently identified, quantified and taken into account. Current identification methods (manual and automatic) are subject to variable quality, inconsistencies or human errors. Mo...
The observation of microseismicity has raised the interest of the seismological and geoengineering c...
This chapter illustrates the concept of passive seismics as a method for monitoring the propagation ...
Gravitational hazards, such as rockfalls, landslides, and debris flows in steep mountain terrain, ha...
Passive monitoring of ground motion can be used for geophysical process analysis and natural hazard ...
Microseismic monitoring has been increasingly used in the past two decades to illuminate (sub)surfac...
Understanding the evolution of landslide and other subsurface processes via microseismic monitoring ...
The application of advanced signal processing techniques in the analysis of signals originating from...
This study presents the first demonstration of the transferability of a convolutional neural network...
It is well known that microseismic activity originates as an elastic stress wave at locations where ...
Passive seismics help us understand subsurface processes, for example, landslides, mining, geotherma...
International audienceRockfalls are common instabilities in alpine areas and can cause significant d...
In this work we present the analysis of more than 9000 signals collected from February 2013 to Janua...
When humans started started exploiting the abundant underground natural resources the Earth has to o...
We installed a microseismic monitoring network on a 300 m high unstable rock face threatening the ci...
Natural underground cavities, active or abandoned mine workings, particularly when they are shallow,...
The observation of microseismicity has raised the interest of the seismological and geoengineering c...
This chapter illustrates the concept of passive seismics as a method for monitoring the propagation ...
Gravitational hazards, such as rockfalls, landslides, and debris flows in steep mountain terrain, ha...
Passive monitoring of ground motion can be used for geophysical process analysis and natural hazard ...
Microseismic monitoring has been increasingly used in the past two decades to illuminate (sub)surfac...
Understanding the evolution of landslide and other subsurface processes via microseismic monitoring ...
The application of advanced signal processing techniques in the analysis of signals originating from...
This study presents the first demonstration of the transferability of a convolutional neural network...
It is well known that microseismic activity originates as an elastic stress wave at locations where ...
Passive seismics help us understand subsurface processes, for example, landslides, mining, geotherma...
International audienceRockfalls are common instabilities in alpine areas and can cause significant d...
In this work we present the analysis of more than 9000 signals collected from February 2013 to Janua...
When humans started started exploiting the abundant underground natural resources the Earth has to o...
We installed a microseismic monitoring network on a 300 m high unstable rock face threatening the ci...
Natural underground cavities, active or abandoned mine workings, particularly when they are shallow,...
The observation of microseismicity has raised the interest of the seismological and geoengineering c...
This chapter illustrates the concept of passive seismics as a method for monitoring the propagation ...
Gravitational hazards, such as rockfalls, landslides, and debris flows in steep mountain terrain, ha...